Technological Features of Selection of Parameter Values of Arc Welding Mode in Shielding Gas Mixture Ar + CO2

Science & Technique Pub Date : 2023-08-04 DOI:10.21122/2227-1031-2023-22-4-269-277

A. A. Karatseyeu, M. M. Shukan, K. A. Fiatsisava, A. A. Karatseyeva

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Abstract

Gas-shielded arc welding today occupies a leading position among the methods for producing permanent joints in industrial conditions. The emergence of new materials with complex alloying and hardening systems makes carbon dioxide, traditionally used as a protective medium, inefficient for use. One of the effective ways to solve these problems is to change the composition of the protective gas atmosphere, which allows you to significantly change the physical and metallurgical processes of melting the electrode wire and the forming the weld. At the same time, the transition to the use of protective gas mixtures based on argon is usually carried out without understanding the essence of the technology and possible problems associated with the specifics of penetration of the base metal, which can cause a number of serious problems. The present paper describes important regularities between technological characteristics of arc welding in a shielding gas mixture Ar + CO2 and welding mode parameters under conditions of deviation of their values from the most effective ones in order to ensure the stability of the processes of electrode metal transfer and the formation of the deposited weld metal bead. On the basis of experimental data, the most probable causes of the appearance of a dangerous and difficult-to-detect defect in the formation of a welded seam in the form of non-fusion between individual beads of the deposited metal and along the fusion line with the base metal of the welded parts have been established. The defect is common and can cause unpredictable failure of the welded joint without visible plastic deformation. Empirical dependences for determining values of the main parameters of the welding mode are proposed as well. Important regularities have been established that make it possible to increase the efficiency of arc welding technology in the environment of protective gas mixtures in the conditions of domestic production.

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氩气+ CO2保护气弧焊方式参数值选择的工艺特点

目前，气体保护电弧焊在工业条件下生产永久接头的方法中占据主导地位。具有复杂合金化和硬化系统的新材料的出现使得传统上用作保护介质的二氧化碳的使用效率降低。解决这些问题的有效方法之一是改变保护气体气氛的组成，这可以显着改变熔化电极丝和形成焊缝的物理和冶金过程。同时，过渡到使用基于氩气的保护气体混合物通常是在不了解该技术的本质和与基体金属渗透的具体情况相关的可能问题的情况下进行的，这可能会导致许多严重的问题。为了保证电极金属转移过程和堆焊金属珠形成过程的稳定性，在氩+ CO2保护气中电弧焊的工艺特性与焊接模式参数偏离最有效值的情况下，研究了焊接模式参数之间的重要规律。根据实验数据，确定了在焊缝形成过程中出现危险且难以检测的缺陷的最可能原因，即沉积金属的单个珠珠之间以及与焊接部件的母材的熔合线上的不熔合。该缺陷是常见的，可导致焊接接头的不可预测的失效，而没有可见的塑性变形。提出了确定焊接模式主要参数值的经验依赖关系。在国内生产条件下，建立了重要的规律，使在保护气体混合环境下提高电弧焊技术的效率成为可能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science & Technique

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